Papilio bianor wings modified with gold nanoparticle enhance light absorption in dye-sensitized solar cells

IF 2.5 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Applied Physics A Pub Date : 2024-11-20 DOI:10.1007/s00339-024-08075-5
Haihong Niu, Tianwen Li, Suikang Luo, Xiaoyu Yao, Wenlong Chen, Md Asik Ahmmed
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Abstract

The microscopic structure of living things in nature is the inspiration for many human science and technology, and the structural color of butterfly wings has been applied in many fields. In the field of solar cells, butterfly wings have been successfully replicated and applied to dye-sensitized solar cells (DSSC).However, the improvement of power conversion efficiency of DSSC with only one bionic structure is limited. So combining the local surface plasmon resonance (LSPR) effect with the nanostructure of bionic butterfly wings in DSSC is expected to achieve higher power conversion efficiency. In this paper, taking dye-sensitized solar cells as the research object, a novel composite structure has been developed and applied to the photoanode, and the power conversion efficiency of the device has been significantly improved. First of all, The LSPR effect of gold nanoparticles was verified by simulation analysis using FDTD Solutions. The gold colloid with the particle size of 30 nm was prepared by sodium citrate reduction method, and the gold colloid was introduced in the process of replicating the wings of Papilio bianor. The gold nanoparticle modified TiO2-BW (Au/TiO2-BW) was obtained and applied to the photoanode of DSSC. The results showed that compared with the DSSC prepared by ordinary P25 photoanode, the power conversion efficiency of DSSC prepared by Au/TiO2-BW photoanode increased by about 17%. Thanks to the synergistic effect of the microstructure of Papilio bianor wings and the LSPR effect, the light absorption capacity of the photoanode was enhanced, and the JSC was effectively improved. At the same time, the introduction of Au/TiO2-BW can effectively inhibit charge recombination and promote carrier transport.

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用纳米金粒子修饰的双翅目翅膀可增强染料敏化太阳能电池的光吸收能力
自然界中生物的微观结构是人类许多科学技术的灵感源泉,蝴蝶翅膀的结构色彩已被应用于许多领域。在太阳能电池领域,蝴蝶翅膀已被成功复制并应用于染料敏化太阳能电池(DSSC)。因此,在 DSSC 中结合局部表面等离子体共振(LSPR)效应和仿生蝶翼的纳米结构有望实现更高的功率转换效率。本文以染料敏化太阳能电池为研究对象,开发了一种新型复合结构,并将其应用于光电阳极,显著提高了器件的功率转换效率。首先,利用 FDTD 解决方案进行模拟分析,验证了金纳米粒子的 LSPR 效应。利用柠檬酸钠还原法制备了粒径为 30 nm 的金胶体,并在复制双翅鸟翅膀的过程中引入了金胶体。得到了金纳米粒子修饰的 TiO2-BW(Au/TiO2-BW),并将其应用于 DSSC 的光阳极。结果表明,与普通 P25 光阳极制备的 DSSC 相比,Au/TiO2-BW 光阳极制备的 DSSC 功率转换效率提高了约 17%。由于巴比伦鸟翅膀的微观结构和 LSPR 效应的协同作用,光阳极的光吸收能力得到增强,JSC 得到有效改善。同时,Au/TiO2-BW 的引入能有效抑制电荷重组,促进载流子传输。
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来源期刊
Applied Physics A
Applied Physics A 工程技术-材料科学:综合
CiteScore
4.80
自引率
7.40%
发文量
964
审稿时长
38 days
期刊介绍: Applied Physics A publishes experimental and theoretical investigations in applied physics as regular articles, rapid communications, and invited papers. The distinguished 30-member Board of Editors reflects the interdisciplinary approach of the journal and ensures the highest quality of peer review.
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